10 research outputs found
Glu-1 alleles and prediction of bread-making quality traits in triticale
Polymerase chain reaction (PCR) was used to identify the allelic composition of Glu-A1, Glu-B1 and Glu-D1 loci that comprise the high-molecular-weight (HMW) glutenin subunits in 15 triticale genotypes. The Glu-A1b allele was detected most frequently (86.7%) at the Glu-A1 locus; the Glu-A1a and Glu-A1c alleles were only found, respectively, in the ‘Pawo’ and ‘Leontino’ varieties. Five allelic combinations were detected at Glu-B1 [Glu-B1-1a+2o (encoding Bx7+By8*), Glu-B1-1a+2s (Bx7+By18*), Glu-B1-1a+2z (Bx7+By20*), Glu-B1-1b+2a (Bx7*+By8) and Glu-B1-1b+2o (Bx7*+By8*)]. The Glu-D1d allele (HMW subunits 5+10) was observed in breeding lines that carried translocated segments of wheat chromosome 1D. Dough mixing results indicated the Glu-D1d allele provided slight improvements in bread-making quality. Three-year results with Glu-B1b+2o/2a encoding subunits Bx7*+By8/ By8* exhibited positive affects in bread-making quality. These subunits were detected in varieties ‘Mungis’ and ‘Pawo’
Detection of the genetic variability of triticale using wheat and Rye SSR markers
The variability of microsatellite markers of 16 genotypes of triticale (×
Triticosecale
Wittmack, 2n = 6x = 42, BBAARR) was studied. Five varieties from Poland (Gutek, Kitaro, Lamberto, Presto and Tornado), three from Germany (Lupus, Ticino and Triamant), one from Russia (Valentin-90) and seven translocation forms derived from cv. Presto (donors of good bread-making quality) were analysed. SSR markers localised on chromosomes of the A, B, D and R genomes were chosen from literature for analysis. Based on 48 SSR markers (27 wheat and 21 rye SSR markers) a dendrogram was calculated, which highly significantly differentiated the Valentine-90 genotype from all the other 15 genotypes split into three sub-clusters. The first one includes the cv. Gutek, Tornado, Presto and translocation forms of cv. Presto. The second sub-cluster consists of the cv. Kitaro, Lamberto, Ticino and Triamant. The third sub-cluster cluster consists of the cv. Lupus only. The diversity index (DI), the probabilities of identity (PI) and the polymorphic information content (PIC) of SSR markers were calculated. We detected 184 alleles from 48 markers with an average of 3.83 alleles per locus (ranging from 1 to 9 alleles per locus). The average polymorphic information content was 0.48 ranging between 0.00 and 0.85